# casting to int order of operations

I'm having trouble understanding why the following two should have any difference:

``````double d = 251.2453;
System.out.println(d);
d = .01 * ((int) (d * 100));
System.out.println(d);
``````

Output

251.2453
251.24

versus this following output from dividing by 100 rather than multiplying by .01 before the cast:

``````double d = 251.2453;
System.out.println(d);
d = ((int) (d * 100)) / 100;
System.out.println(d);
``````

Output

251.2453
251.0

• Because `100` is an `int` and `.01` is not. – azurefrog Aug 22 '17 at 16:12
• dividing by 100 is an integer operation so the result is an `int`, multipying by 0.01 is a floating point opertion and the result is an `double`. Note: neither option is particaulry useful. I suggest doing `Math.floor(d * 100) / 100.0` which is less likely to overflow, and have less representation error. – Peter Lawrey Aug 22 '17 at 16:12

## 4 Answers

In the second case you divide an Integer by an Integer, so the result is an Integer, while in the first case you multiply by 0.1 and therefore cast to a floating point number.

d = .01 * ((int) (d * 100));

1. `d * 100` -> still `double` - `25124.53`
2. `(int) ...` -> now an `int` so rounded down - `25124`
3. `.01 * ( ...` -> now a `float` - `251.24`
4. `d =` - now a double again - `251.24`

d = ((int) (d * 100)) / 100;

1. `d * 100` -> still `double` - `25124.53`
2. `(int) ...` -> now an `int` - `25124`
3. `... ) / 100` -> still an `int` - `251` <<--- Here's the cause!
4. `d =` - now a double again - `251.0`

In the first code, notice that

``````(d * 100)
``````

is enclosed within parentheses. Therefore, this operation is done first and the value returned is

``````251.2453 * 100 = 25124.53
``````

and then the (int) of 25124.53 is returned, i.e., 25124.
Now, you get

``````.01 * 25124 = 251.24
``````

In the second case, `d * 100` is again enclosed within parentheses, so the operation is done first, and then the (int) of that result is returned, i.e.:

``````(int) 25124.53 = 25124
``````

Now, 25124 is `int` and so is `100`. Therefore, an integer division takes place which returns the value after ignoring the fractional part. So you get

``````25124 / 100 = 251
``````

and that value is stored as `double` which finally becomes

``````251.0
``````

## Q.E.D.

In the first case when you do

``````d = .01 * ((int) (d * 100));
``````

it's actually

``````.01* 25124 = 251.24
``````

In the 2nd scenario

``````d = ((int) (d * 100)) / 100;
``````

It's actually

``````d= ((int) 25124.53)/100 = 25124/100 = 251
(it's division of int by int equal to int)
``````

Now when you print d it's output as 251.0